电脉冲对冷拔法制造的 AZ31 合金微观结构和机械性能的影响

IF 2.1 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
JOM Pub Date : 2024-07-31 DOI:10.1007/s11837-024-06772-3
Zhaohui Shan, Yixia Zhang, Yulin Liu, Qiang Zhang, Jianfeng Fan, Binshan Wang, Xiaoyan Yun, Bingshe Xu
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引用次数: 0

摘要

对一种细直径 AZ31 镁合金线材进行了冷拔和电脉冲处理(EPT),以探索加工条件对微观结构演变和机械性能的影响。在 EPT 处理过程中,由于冷拔样品产生了静态再结晶,形成了超细晶粒结构,并伴有弱基底纹理的发展。在室温下进行的拉伸试验中,AZ31 合金丝表现出拉伸强度和延展性的良好结合。特别是在 30 μs-5 min 下进行 EPT 加工的试样达到了 390 MPa 的最高极限拉伸强度。除了如此高的强度外,试样的伸长率也达到了 29.5%。强度和延展性的大幅提高归因于细晶粒强化效应和基底纹理成分的削弱。最后,我们提出冷拔和 EPT 是生产高强度、高延展性镁合金线材产品的可行方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Effect of Electropulsing on the Microstructure and Mechanical Properties of AZ31 Alloys Manufactured by Cold Drawing

Effect of Electropulsing on the Microstructure and Mechanical Properties of AZ31 Alloys Manufactured by Cold Drawing

A fine-diameter AZ31 magnesium alloy wire was treated with cold drawing and electropulsing treatment (EPT) to explore the influence of processing conditions on microstructural evolution and mechanical properties. An ultrafine-grained structure accompanied by the development of a weak basal texture was formed because of static recrystallization originating from the cold-drawn samples under EPT processing. The AZ31 alloy wires exhibited a good combination of tensile strength and ductility in tensile tests at room temperature. In particular, the highest ultimate tensile strength of 390 MPa was achieved in the specimen EPT-processed at 30 μs–5 min. In addition to such high strength, elongation reaches 29.5% in the specimen. This substantially improved strength and ductility were attributed to the fine-grain strengthening effects and weakening of the basal texture component. Finally, it is proposed that cold drawing and EPT are promising ways to produce high strength, high ductility Mg alloy wire products.

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来源期刊
JOM
JOM 工程技术-材料科学:综合
CiteScore
4.50
自引率
3.80%
发文量
540
审稿时长
2.8 months
期刊介绍: JOM is a technical journal devoted to exploring the many aspects of materials science and engineering. JOM reports scholarly work that explores the state-of-the-art processing, fabrication, design, and application of metals, ceramics, plastics, composites, and other materials. In pursuing this goal, JOM strives to balance the interests of the laboratory and the marketplace by reporting academic, industrial, and government-sponsored work from around the world.
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